Effect of TiO2 particle and pore size on DSSC efficiency

被引:0
作者
V. A. González-Verjan
B. Trujillo-Navarrete
Rosa María Félix-Navarro
J. N. Díaz de León
J. M. Romo-Herrera
J. C. Calva-Yáñez
J. M. Hernández-Lizalde
E. A. Reynoso-Soto
机构
[1] Tecnológico Nacional de México,Centro de Graduados E Investigación en Química
[2] Instituto Tecnológico de Tijuana,Centro de Nanociencia Y Nanotecnología
[3] Universidad Nacional Autónoma de México,Centro de Graduados E Investigación en Química
[4] CONACyT-Tecnológico Nacional de México,undefined
[5] Instituto Tecnológico Tijuana,undefined
来源
Materials for Renewable and Sustainable Energy | 2020年 / 9卷
关键词
DSSC; Titanium; Mesoporous; Anatase; Nanoparticles;
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学科分类号
摘要
In this work, we report the preparation of TiO2 nanoparticles with a high surface area, from 120 to 168 m2 g−1 by the hydrothermal-microemulsion route and hydrothermal temperature effect over particle size, porosity, and photovoltaic parameter. The TiO2 samples were characterized by Raman, BET, TEM, SEM-FE, I–V curves, and EIS. The increase of hydrothermal temperature correlates with particle and pore size. Although when the synthesis temperature was 250 °C, the surface area presents an unexpected decrease of c.a. 28%. TiO2 samples were employed as thin-film photo-anodes for dye-sensitized solar cell (DSSC) solar cells. Photovoltaic results showed that the sample prepared at 250 °C presented the more suitable textural properties for the DSSC application. The prepared TiO2 materials with a particle size of 6.93 ± 0.59 nm and anatase crystalline phase favor electron transport and diffusion of electrolyte species, which directly impact in solar cell efficiency.
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